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Stent graft loading and deployment device and method

a technology of stent graft and deployment device, which is applied in the field of tubular prosthesis, can solve the problems of high mortality rate and complex surgical procedure, and achieve the effect of small pre-deployment and collapsed profil

Inactive Publication Date: 2005-04-12
MEDTRONIC VASCULAR INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

An embodiment according to present invention provides an improved endoluminal prosthesis having a tubular graft with a support structure attached to the tubular graft, configured in a manner that provides device flexibility while maintaining a relatively small pre-deployed, collapsed profile.
The annular support members each comprise an annular expandable member formed by a series of connected compressible diamond structures. Alternatively, the expandable member may be formed of an undulating or sinusoidal patterned wire ring or other compressible spring member. Preferably the annular support members are radially compressible springs biased in a radially outward direction, which when released, bias the prosthesis into conforming fixed engagement with an interior surface of the vessel. Annular support members are used to create a seal between the prosthesis and the inner wall of a body lumen as well as to support the tubular graft structure. The annular springs are preferably constructed of Nitinol. Examples of such annular support structures are described, for example, in U.S. Pat. Nos. 5,713,917 and 5,824,041 incorporated herein by reference. When used in an aneurysm exclusion device, the support structures have sufficient radial spring force and flexibility to conformingly engage the prosthesis with the body lumen inner wall, to avoid excessive leakage, and prevent pressurization of the aneurysm, i.e., to provide a leak resistant seal. Although some leakage of blood or other body fluid may occur into the aneurysm isolated by the prosthesis, an optimal seal will reduce the chances of aneurysm pressurization and resulting rupture.
A feature according to the invention provides restraining members that hold the annular springs in a compressed configuration until the prosthesis is positioned and the restraining members are released. The restraining members permit deployment of the prosthesis without the use of a retaining sheath on the catheter. A highly flexible sheath may be used with the catheter to prevent catching of the prosthesis on the inner lumen wall during delivery to the deployment site. Such sheath may be constructed of a thin, highly flexible material that does not require radially retaining strength to retain the annular springs. Once the prosthesis is placed at the deployment site, the restraining members are released by one of several mechanisms. In one embodiment, the restraining mechanisms are broken or released by inflation of a balloon over which the compressed and restrained prosthesis is placed. Such restraining mechanisms may comprise, for example, a suture, clip or other mechanism holding all or a portion of the annular member in the compressed, collapsed configuration. The restraining mechanism may comprise a member encircling the entire ring such as a suture, wire, thread, or a band of material. Alternatively an expandable cover may be placed over several or all of the compressed annular support structures. Breaking or releasing the restraining member permits the self-expanding annular support structure to expand the prosthesis into conforming engagement with the inner wall of the lumen. Alternative mechanisms may be used to release the restraining mechanisms. For example, a thread loop tied around a support structure may be released by actuating or pulling on a thread to untie the loop. In one embodiment, the restraining mechanisms on each of the annular support structures may be individually released so that if desired, the annular support structures can be released in a desired sequence.

Problems solved by technology

The surgical procedure is complex and requires long hospital stays due to serious complications and long recovery times and has high mortality rates.
Although frequently referred to as stent-grafts, these devices differ from covered stents in that they are not used to mechanically prop open natural blood vessels.
One challenge in implanting the endoluminal prostheses is to provide delivery catheter access to the site.

Method used

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  • Stent graft loading and deployment device and method
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  • Stent graft loading and deployment device and method

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Embodiment Construction

FIGS. 1A-8 illustrate various embodiments of the endoluminal prosthesis, delivery systems and methods according to the present invention. Although an endoluminal prosthesis, delivery system and method according to the invention may be used in any body lumen that conducts body fluid, they are described herein with reference to treatment of an aortic aneurysm, in particular in the abdomen of a patient.

FIGS. 1A and 1B illustrate an embodiment of an endoluminal prosthesis 110. The prosthesis 110 comprises a tubular graft 115 and a series of radially compressible annular support members 112 attached to tubular graft 115. The annular support members 112 support the graft and / or bias the prosthesis 110 into conforming fixed engagement with an interior surface of an aorta 10 (See FIG. 2C). The annular support members 112 are preferably spring members having a predetermined radii and are preferably constructed of a material such as Nitinol in a superelastic, shape set, annealed condition

The ...

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Abstract

An endoluminal prosthesis includes a tubular graft, an expandable annular support structure and a restraining mechanism restraining the prosthesis in a collapsed configuration in which the annular support structure is compressed to a low profile. The restraining mechanism holds the annular support structures in the collapsed configuration until the prosthesis is positioned for deployment. The restraining mechanism is then released to allow the annular support structures to expand into conforming engagement with the inner wall of a lumen in which the prosthesis is to be deployed. A feature according to the invention provides a balloon catheter onto which the prosthesis is loaded for deployment where the balloon is expanded to provide a radial force to release the restraining mechanism. Another feature provides for a restraining member that breaks upon application of the radial force to release the annular support structure from its constrained configuration. Another feature of the invention provides for independent and / or sequential release of the annular support members. Various types of annular support members attached to tubular grafts in a variety of manners may be used in accordance with the invention. The invention may be used in tubular grafts for endoluminal placement within a body lumen, including blood vessels, and for the treatment of abdominal and other aneurysms.

Description

FIELD OF THE INVENTIONThe present invention relates to tubular prostheses such as grafts and endoluminal prostheses including, for example, stent-grafts and aneurysm exclusion devices, and methods for placement of such grafts and endoluminal structures. Further, the present invention relates to a stent graft deployment device and method.BACKGROUND OF THE INVENTIONA wide range of medical treatments have been previously developed using “endoluminal prostheses,” which terms are herein intended to mean medical devices which are adapted for temporary or permanent implantation within a body lumen, including both naturally occurring or artificially made lumens. Examples of lumens in which endoluminal prostheses may be implanted include, without limitation: arteries such as those located within coronary, mesentery, peripheral, or cerebral vasculature; veins; gastrointestinal tract; biliary tract; urethra; trachea; hepatic shunts; and fallopian tubes. Various types of endoluminal prostheses ...

Claims

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Application Information

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Patent Type & Authority Patents(United States)
IPC IPC(8): A61F2/06A61F2/90
CPCA61F2/07A61F2/90A61F2/844A61F2002/075A61F2002/9511A61F2220/0075A61F2230/0054A61F2230/0067A61F2220/005A61F2220/0066A61F2/89
Inventor LENKER, JAY A.
Owner MEDTRONIC VASCULAR INC
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